Telegin, Aleksey M.

2025

• 1 Kotlyar V.V., Kovalev A.A., Stafeev S.S. etc. Orbital angular momentum at the tight focus of a circularly polarized Gaussian beam // Journal of the Optical Society of America A: Optics and Image Science, and Vision 2025. — Vol. 42. Issue 1. № 1. — P. 52-58
• 2 Kotlyar V.V., Kovalev A.A., Telegin A.M. Skyrmion number for a generalized vector Poincaré beam // Computer Optics 2025. — Vol. 49. Issue 1. № 1. — P. 5-12
• 3 Kotlyar V.V., Kovalev A.A., Stafeev S.S. etc. Spin and orbital Hall effects in the tight focus of coaxial superposition of two cylindrical vector beams of different-parity orders // Computer Optics 2025. — Vol. 49. Issue 3. № 3. — P. 369-377
• 4 Kotlyar V.V., Kovalev A.A., Nalimov A.G. etc. Spin-orbit conversion at the sharp focus of a circularly polarized light beam // Computer Optics 2025. — Vol. 49. Issue 4. № 4. — P. 541-548
• 5 Kotlyar V.V., Kovalev A.A., Nalimov A.G. etc. Direction of energy flows at the focus of cylindrical vortex vector beams // Computer Optics 2025. — Vol. 49. Issue 4. № 4. — P. 531-540
• 6 Kalaev M.P., Telegin A.M., Voronov K.E. Experimental Study of a Grid Sensor for Measuring the Velocity Vector of Micrometeoroids and Space Debris Particles // Instruments and Experimental Techniques 2025. — Vol. 68. Issue 1. № 1. — P. 160-166
• 7 Kotlyar V.V., Kovalev A.A., Nalimov A.G. etc. Orbital angular momentum density distribution at the sharp focus of vector light fields // Journal of Optics 2025. — Vol. 27. Issue 7. № 7.
• 8 Kotlyar V.V., Kovalev A.A., Stafeev S.S. etc. Behavior of an optical vortex immediately behind a spherical lens illuminated by circularly polarized light // OPTIK 2025. — Vol. 338.
• 9 Kotlyar V.V., Kovalev A.A., Nalimov A.G. etc. Backward canonical energy flow in the near field of three non-paraxial 2D beams // Journal of the Optical Society of America. A, Optics, image science, and vision 2025. — Vol. 42. Issue 9. № 9. — P. 1396-1402
• 10 Kotlyar V.V., Kovalev A.A., Nalimov A.G. etc. Orbital angular momentum of structurally stable laser beams // Proceedings of SPIE - The International Society for Optical Engineering. — 2025. — Vol. 13738.
• 11 Telegin A.M., Kalaev M.P., Voronov K.E. Study of a model for calculating an induced current pulse in the measuring grids of a sensor for micrometeoroids and space debris particles; Исследование модели расчёта наведенного импульса тока в измерительных сетках датчика микрометеороидов и частиц космического мусора // Applied Physics 2025. — Issue 1. № 1. — P. 5-10
• 12 Telegin A.M., Kalaev M.P. A DETECTOR OF MICROMETEOROIDS AND SPACE DEBRIS PARTICLES BASED ON A FILM INDUCTANCE COIL; ДАТЧИК МИКРОМЕТЕОРОИДОВ И ЧАСТИЦ КОСМИЧЕСКОГО МУСОРА НА ОСНОВЕ ПЛЕНОЧНОЙ КАТУШКИ ИНДУКТИВНОСТИ // St. Petersburg State Polytechnical University Journal: Physics and Mathematics 2025. — Vol. 18. Issue 3. № 3. — P. 49-59
• 13 Kotlyar V.V., Kovalev A.A., Telegin A.M. etc. Poincare Skyrmion Number // Optical Memory and Neural Networks (Information Optics) 2025. — Vol. 34. Issue 3. № 3. — P. 347-357

2024

• 1 Kotlyar V.V., Kovalev A.A., Telegin A.M. etc. Transverse Spin Hall Effect and Twisted Polarization Ribbons at the Sharp Focus // Applied Sciences (Switzerland) 2024. — Vol. 14. Issue 9. № 9.
• 2 Kotlyar V.V., Stafeev S.S., Telegin A.M. etc. Spin Angular Momentum at the Focus of a Superposition of an Optical Vortex and a Plane Wave with Linear Polarizations // PHOTONICS 2024. — Vol. 11. Issue 4. № 4.
• 3 Kotlyar V.V., Kovalev A.A., Telegin A.M. etc. Polarization Strips in the Focus of a Generalized Poincaré Beam // PHOTONICS 2024. — Vol. 11. Issue 5. № 5.
• 4 Kotlyar V.V., Kovalev A.A., Stafeev S.S. etc. Optical spin and orbital Hall effects at the tight focus of the superposition of two coaxial cylindrical vector beams with different-parity numbers // Journal of the Optical Society of America A: Optics and Image Science, and Vision 2024. — Vol. 41. Issue 8. № 8. — P. 1563-1572
• 5 Kotlyar V.V., Kovalev A.A., Nalimov A.G. etc. Transverse and Longitudinal Energy Flows in a Sharp Focus of Vortex and Cylindrical Vector Beams // Applied Sciences (Switzerland) 2024. — Vol. 14. Issue 14. № 14.
• 6 Kotlyar V.V., Kovalev A.A., Telegin A.M. Polarization Möbius strip at the tight focus of a generalized Poincaré beam // Computer Optics 2024. — Vol. 48. Issue 4. № 4. — P. 519-524
• 7 Kotlyar V.V., Kovalev A.A., Stafeev S.S. etc. Spin-orbital conversion of the light field immediately behind an ideal spherical lens // Computer Optics 2024. — Vol. 48. Issue 3. № 3. — P. 325-333
• 8 Kotlyar V.V., Stafeev S.S., Telegin A.M. etc. Spin Hall Effect While Focusing an Optical Vortex and a Plane Wave with Linear Polarisations // Optical Memory and Neural Networks (Information Optics) 2024. — Vol. 33. Issue Suppl 1. № Suppl 1. — P. S1-S8
• 9 Telegin A.M. Study of Sensor Designs for Recording the Parameters of High-Velocity Microparticles in the Accelerator Path (Review) // Journal of Communications Technology and Electronics 2024. — Vol. 69. Issue 4. № 4. — P. 268-278
• 10 Kotlyar V.V., Kovalev A.A., Telegin A.M. etc. Transverse spin Hall effect and polarization twist ribbon at the sharp focus // Computer Optics 2024. — Vol. 48. Issue 6. № 6. — P. 822-831
• 11 Kotlyar V.V., Stafeev S.S., Telegin A.M. etc. Superposition of an optical vortex and a plane wave with linear polarization states at the tight focus // Computer Optics 2024. — Vol. 48. Issue 6. № 6. — P. 851-857

2023

• 1 Kotlyar V.V., Stafeev S.S., Telegin A.M. Spin angular momentum at the tight focus of a cylindrical vector beam with an imbedded optical vortex // OPTIK 2023. — Vol. 287.
• 2 Kotlyar V.V., Stafeev S.S., Zaitsev V.D. etc. Spin–Orbital Transformation in a Tight Focus of an Optical Vortex with Circular Polarization // Applied Sciences (Switzerland) 2023. — Vol. 13. Issue 14. № 14.
• 3 Kotlyar V.V., Kovalev A.A., Telegin A.M. Focusing a vortex beam with circular polarization: angular momentum // Computer Optics 2023. — Vol. 47. Issue 4. № 4. — P. 524-532
• 4 Kovalev A.A., Kotlyar V.V., Telegin A.M. Optical Helicity of Light in the Tight Focus // PHOTONICS 2023. — Vol. 10. Issue 7. № 7.
• 5 Kotlyar V.V., Kovalev A.A., Telegin A.M. Angular and Orbital Angular Momenta in the Tight Focus of a Circularly Polarized Optical Vortex // PHOTONICS 2023. — Vol. 10. Issue 2. № 2.
• 6 Kotlyar V.V., Kovalev A.A., Telegin A.M. Generalized Poincaré Beams in Tight Focus // PHOTONICS 2023. — Vol. 10. Issue 2. № 2.
• 7 Kotlyar V.V., Kovalev A.A., Kozlova E.S. etc. Hall Effect at the Focus of an Optical Vortex with Linear Polarization // MICROMACHINES 2023. — Vol. 14. Issue 4. № 4.
• 8 Sukhachev K.I., Telegin A.M., Grigoriev D.P. etc. Operating Algorithm of the Digital Module of the Device for Detecting Flight Pulse // Instruments and Experimental Techniques 2023. — Vol. 66. Issue 2. № 2. — P. 228-233
• 9 Kalaev M.P., Rodina A.V., Telegin A.M. etc. Investigation into Operation of an Optical Sensor for Registering Parameters of High-Speed Dust Particles // Instruments and Experimental Techniques 2023. — Vol. 66. Issue 6. № 6. — P. 1025-1032
• 10 Kotlyar V.V., Kovalev A.A., Stafeev S.S. etc. Vector Light Field Immediately behind an Ideal Spherical Lens: Spin–Orbital Conversion, Additional Optical Vortices, Spin Hall Effect, Magnetization // PHOTONICS 2023. — Vol. 10. Issue 11. № 11.
• 11 Kotlyar V.V., Stafeev S.S., Telegin A.M. Spin angular momentum at the sharp focus of a cylindrical vector vortex beam // Computer Optics 2023. — Vol. 47. Issue 6. № 6. — P. 875-883
• 12 Voronov K.E., Piyakov I.V., Kalaev M.P. etc. Investigation of the Operation of the Flight Detector of High-Speed Charged Microparticles for a Time-of-Flight Mass Spectrometer // Instruments and Experimental Techniques 2023. — Vol. 66. Issue 6. № 6. — P. 1018-1024
• 13 Kotlyar V.V., Stafeev S.S., Telegin A.M. etc. The Mechanism of the Formation of the Spin Hall Effect in a Sharp Focus // PHOTONICS 2023. — Vol. 10. Issue 10. № 10.
• 14 Voronov K.E., Piyakov I.V., Ryazanov D.M. etc. The investigation of the operation of the device with a microchannel plate as an ion receiver for the dust particles' registration; [Исследование работы устройства с микроканальной пластиной в качестве приемника ионов для регистрации пылевых частиц] // Applied Physics 2023. — Issue 6. № 6. — P. 84-90

2022

• 1 Piyakov A.V., Telegin A.M. Measuring the Particle Distribution over a Cross Section of the Accelerator Channel for Simulating Micrometeorites Using an Induction Sensor // Instruments and Experimental Techniques 2022. — Vol. 65. Issue 4. № 4. — P. 636-644
• 2 Kalaev M.P., Rodina A.V., Telegin A.M. Investigation of Changes in the Characteristics of Solar Panels under the Influence of Space Factors // Instruments and Experimental Techniques 2022. — Vol. 65. Issue 6. № 6. — P. 970-975
• 3 Kotlyar V.V., Stafeev S.S., Zaycev V.D. etc. Poincaré Beams at the Tight Focus: Inseparability, Radial Spin Hall Effect, and Reverse Energy Flow // PHOTONICS 2022. — Vol. 9. Issue 12. № 12.

2020

• 1 Piyakov I.V., Kalaev M.P., Sukhachev K.I. etc. A Digital Signal Recording Module for a Dust Hit Mass Spectrometer // Instruments and Experimental Techniques 2020. — Vol. 63. Issue 6. — P. 870-874
• 2 Piyakov I., Rodina M., Rodin D. etc. Simulation of a dust impact time-of-flight dust particle sensor // CEUR Workshop Proceedings. — 2020. — Vol. 2667. — P. 67-70

2019

• 1 Kalaev M.P., Telegin A.M., Voronov K.E. etc. Investigation of optical glass characteristics under the influence of space factors // Computer Optics 2019. — Vol. 43. Issue 5. — P. 803-809

2018

• 1 Piyakov I.V., Rodin D.V., Rodina M.A. etc. Numerical simulation of the ion focusing process in a dust impact time of flight mass spectrometer // CEUR Workshop Proceedings. — 2018. — Vol. 2212. — P. 152-157
• 2 Piyakov A.V., Rodin D.V., Rodina M.A. etc. Simulation of the control system of the electrodynamic accelerator of dust particles // CEUR Workshop Proceedings. — 2018. — Vol. 2212. — P. 158-164

2017

• 1 Telegin M., Semkin N.D., Novikov L.S. “Meteor” Sensors Mounted on a Small Spacecraft AIST // Astrophysics and Space Science Proceedings. — 2017. — Vol. 47. — P. 517-522
• 2 Semkin N.D., Piyakov A.V., Vidmanov A.S. etc. Charging solid microparticles in the chamber of the injector of an electrostatic accelerator // Instruments and Experimental Techniques 2017. — Vol. 60. Issue 1. — P. 149-153
• 3 Semkin N.D., Telegin A.M. Calculating the Current in the Measurement Circuit of a High-Velocity Microparticle Detector // Measurement Techniques 2017. — Vol. 59. Issue 12. — P. 1304-1309
• 4 Piyakov A.V., Rodin D.V., Rodina M.A. etc. Numerical simulation of motion of dust particles in an accelerator path // CEUR Workshop Proceedings. — 2017. — Vol. 1902. — P. 55-61
• 5 Semkin N.D., Telegin A.M. Impact experiments with a multiparameter detector of micrometeoroids // Instruments and Experimental Techniques 2017. — Vol. 60. Issue 1. — P. 126-129
• 6 Telegin A.M., Piyakov A.V. A study of the performance of an induction sensor for an accelerator of charged microparticles // Instruments and Experimental Techniques 2017. — Vol. 60. Issue 6. — P. 875-879

2016

• 1 Lysenko A.V., Goryachev N.V., Yurkov N.K. etc. Information-measuring control system of active vibration protection RED // Proceedings of 2016 IEEE East-West Design and Test Symposium, EWDTS 2016. — 2016. —
• 2 Telegin A.M., Voronov K.E., Avdeev V.A. Researches of micrometeoroids and space debris particles on the AIST-1T small spacecraft // Applied Physics 2016. — Vol. 2016-January. Issue 6. — P. 116-119
• 3 Kochegarov, Igor I., Danilova, Evgeniya A., Yurkov, Nikolay K. etc. Analysis and Modeling of Latent Defects in the Printed Conductors // 2016 13TH INTERNATIONAL SCIENTIFIC-TECHNICAL CONFERENCE ON ACTUAL PROBLEMS OF ELECTRONIC INSTRUMENT ENGINEERING (APEIE), VOL 1. — 2016. — P. 116-120
• 4 Kochegarov I.I., Danilova E.A., Yurkov N.K. etc. Analysis and modeling of latent defects in the printed conductors // 2016 13th International Scientific-Technical Conference on Actual Problems of Electronic Instrument Engineering, APEIE 2016 - Proceedings. — 2016. — Vol. 2. — P. 116-120
• 5 Semkin N.D., Telegin A.M. An experimental study of a hemispherical detector of micrometeoroids and particles of space garbage using a pulsed laser // Instruments and Experimental Techniques 2016. — Vol. 59. Issue 6. — P. 834-836

2015

• 1 Telegin A., Zatylkin A., Kalaev M. etc. Modeling the effect of local thermal effect on the stress-strain state of the conductive layer printed circuit board // International Journal of Applied Engineering Research 2015. — Vol. 10. Issue 23. — P. 43827-43830
• 2 Semkin N. D., Telegin, A. M. Small spacecraft to register micrometeoroids and space debris // 2015 3RD INTERNATIONAL CONFERENCE ON MANUFACTURING ENGINEERING AND TECHNOLOGY FOR MANUFACTURING GROWTH (METMG 2015). — 2015. — P. 46-49
• 3 Semkin N.D., Voronov K.E., Telegin A.M. etc. Bioimpedance Research Instrumentation System for the BION-M1 Spacecraft // Measurement Techniques 2015. — Vol. 57. Issue 10. — P. 1209-1212

2014

• 1 Semkin N.D., Pomel'nikov R.A., Telegin A.M. Expansion of a shock plasma in the accelerating field of a parallel-plate capacitor in a time-of-flight mass spectrometer // Technical Physics 2014. — Vol. 59. Issue 5. — P. 663-669

2013

• 1 SEMKIN N.D., TELEGIN A.M., PIYaKOV A. V. etc. INVESTIGATION OF SHOCK FLASH IN MDM – THE STRUCTURE UNDER THE IMPACT OF HIGH DUST // 6 European Conference on Space Debris. ESA/ESOC. — 2013. —
• 2 Telegin A.M., Semkin N.D., Novikov L.S. The behavior of film structures metal-dielectric-metal in conditions of high-speed dust // European Space Agency, (Special Publication) ESA SP. — 2013. — Vol. 705 SP.
• 3 Semkin N.D., Piyakov A.V., Telegin A.M. etc. Electric charge and field in the meniscus of a dielectric fluid // Technical Physics 2013. — Vol. 58. Issue 5. — P. 640-646
• 4 Semkin N.D., Piyakov A.V., Voronov K.E. etc. An injector of charged liquid particles // Instruments and Experimental Techniques 2013. — Vol. 56. Issue 2. — P. 225-232
• 5 Semkin N.D., Telegin A.M., Voronov K.E. Registering the elemental composition of micrometeoroids and debris // Astrophysics and Space Science Proceedings. — 2013. — Vol. 32. — P. 263-270

2012

• 1 SEMKIN N.D., TELEGIN A.M., Novikov L.S. Behavior of film Structures "Metal-Dielectric -Metal" under the Impact of high -speed Dust // Тезисы на конференции. 12th International Symposium on Materials in the Space Environment (ISMSE-12). — 2012. — P. 84-85
• 2 Semkin N.D., Kalaev M.P., Telegin A.M. etc. Multilayer film structures under the influence of micrometeoroids and space debris // Applied Physics 2012. — Issue 2. — P. 104-115

2011

• 1 Semkin N.D., Telegin A.M. Shock-compressed metal-insulator-metal structures under the action of fast dust particles // Technical Physics 2011. — Vol. 56. Issue 7. — P. 986-991
• 2 Semkin N.D., Telegin A.M., Piyakov I.V. etc. Algorithm for calculating an elemental composition in the dust impact mass-spectrometer subject to noise // Applied Physics 2011. — Issue 6. — P. 155-160
• 3 Semkin N.D., Telegin A.M. Detectors of physicochemical characteristics of micrometeoroids based on film MDM structures // Inorganic Materials: Applied Research 2011. — Vol. 2. Issue 5. — P. 419-424